Click here for a summary of component types required for each Advanced kit.

To see Kit prices, click here for the Technology Catalogue (prices on page 4)

For more detailed information about each kit please refer to the individual kit's teaching unit. If the unit is not downloadable please contact us and we will email you a copy.

Beepa (30 hours)

Code: BEEPA

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The BEEPA project provides an introduction to microcontrollers, programming and electronics. BEEPA can be programmed to light three LEDs, produce sound from a piezo transducer, respond to pushbutton presses and respond to the light level.

Beetle (20-30 hours)

Code:BEETLE

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BEETLE is a six-legged user programmable device. When it hits an object, BEETLE backs away, turns around and continues in another direction, imitating the actions of a real beetle. BEETLE also changes direction when it doesn't bump into anything for some time. BEETLE has a lever arm microswitch at either end to detect an obstruction. It is driven by two motors, each with its own gearbox, and is controlled by a PICAXE-08M2 micro-controller.

Controller (30 hours)

Code: CONTROLLER

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The CONTROLLER is a general purpose controller, and may be used control up to six small DC motors with simple position feedback. The central control element for the CONTROLLER is a Picaxe-40X microcontroller. Other devices may also be connected to the unused inputs and outputs. The CONTROLLER is suitable for many applications, such as the ROBOT ARM.

Dizzy (20-30 hours)

DIZZY is a two-wheeled user programmable vehicle. When it hits an object, DIZZY backs away, spins around quickly (hence its name) and continues in another direction. DIZZY also changes direction when it doesn’t hit anything for some time. DIZZY has a lever arm microswitch at each end that detects an obstruction. It is driven by two electric motors, each with its own gearbox, and is controlled by a PICAXE-08M2 microcontroller. The prototype DIZZY was built using recycled CDs, but the concept has scope for individual variation.

Follow White Line Vehicle (35-45 hours)

The FOLLOW WHITE LINE VEHICLE follows a white line taped to a dark surface. Light Dependent Resistors determine the position of the vehicle relative to a white line, and steer it along that.

Forklift (40-50 hours)

Code: FORKLIFT

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The FORKLIFT is a motorised vehicle that can drive, steer and lift a load. These motions are controlled by a tethered control box. This unit details the construction of our prototype FORKLIFT, which is 300mm long x 140mm wide x 250mm high. The design and size of the vehicle depends on the student’s choices in design and construction. The major aspects of this project are planning, design, component identification, part manufacture, maximizing effective use of materials, assembly, testing and evaluation.

The RADIO CONTROLLED VEHICLE (RCV) is a motorised vehicle, controlled and steered by remote control. There is a receiver PCB (Printed Circuit Board) mounted on the vehicle and a transmitter PCB in a hand held control box. This remote control unit controls the vehicle’s forward and reverse motion, as well as the steering. The vehicle is driven by a gearbox/motor assembly, and steered by an electric motor through a steering rod and a steering link. The radio transmission distance is approximately 25 metres, and under favourable conditions can be greater.

Robot Arm (50-60 hours)

Code: ROBARM

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The ROBOT ARM is a five-axis pick-and place manipulator. The axes provide the following functions: gripper, gripper rotation, wrist, forearm and arm. Each of the axes is driven by an electric motor. The ROBOT ARM is controlled by five two-way switches and is powered by four AA batteries.

Robot Arm Controller

One use for the CONTROLLER is to enable the five motors in the ROBOT ARM to be controlled using position feedback. This document details the use of the CONTROLLER with the ROBOT ARM. The central control element for the CONTROLLER is a Picaxe-40X microcontroller. The CONTROLLER may be incorporated into initial design of the ROBOT ARM or may be used to convert the ROBOT ARM at a later date. The CONTROLLER may also be used for mechanisms that require up to six axes of motor control with position feedback. Other devices may also be connected to the unused inputs and outputs.

Seeker (22-28 hours)

Code: SEEKER

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The SEEKER is a three-wheeled vehicle. Each front wheel is driven by a separate gearbox/motor. At the rear is a swivel mounted trailing wheel, allowing the vehicle to change its direction of travel easily. The direction of travel of the vehicle is controlled by two LDRs (Light Dependent Resistors). When an object is approached or shade is encountered the SEEKER will reverse and change its direction of travel. There is a PCB and a significant number of electronic components controlling the vehicle.

Wanderer

Code:WAND

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The WANDERER is a three wheeled vehicle. Each front wheel is driven by a separate gearbox/motor. The rear has a swivel mounted trailing wheel, allowing the vehicle to change its direction of travel easily. The WANDERER is controlled by two switches mounted at the front of the vehicle, and activated by a bumper bar. When it encounters an object one or both switches will operate and cause it to reverse and turn away from the object. There is a PCB and a significant number of electronic components controlling the vehicle.

Wombat (18 hours)

Code: WOMBAT

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The WOMBAT is a black-line-following vehicle. An electronic circuit senses the line position and changes the speed of each driven wheel, keeping the WOMBAT on track.